Carbon Nanotube-Graphene Conductive Film

◆Carbon Nanotube-Graphene Conductive Film – Offers a sheet resistance of less than 10 ohms/square.

Carbon nanotube (CNT) conductive films can achieve a sheet resistance of less than 10 ohms per square and are suitable for applications such as EMI shielding, battery electrodes, and other conductive uses. Carbon nanotubes are hollow, tubular carbon nanomaterials characterized by excellent electrical conductivity and mechanical strength, as well as a high specific surface area and chemical stability; they serve as indispensable additives in modern functional materials. Like graphene and carbon black, they exhibit outstanding electrical and thermal conductivity.

 

Carbon Nanotube-Graphene Conductive Film

1. Superior Electrical Conductivity: Extremely low resistivity allows for rapid electron mobility, offering potential for future applications in smaller, faster next-generation semiconductors and supercapacitors.

2. Excellent Thermal Conductivity: Exceptionally high thermal conductivity enables rapid heat transfer and dissipation, making it suitable for smartphone heat spreaders and high-performance batteries.

Electronic Devices: Used as conductive coatings for components such as circuit boards, touch screens, and sensors to enhance device performance and stability.

Energy Sector: Serves as electrode material or current collector coating in energy storage devices like lithium-ion batteries and supercapacitors, improving energy density and charge-discharge efficiency.

Electromagnetic Shielding: Used to produce electromagnetic shielding materials that effectively block electromagnetic interference, protecting electronic devices from external electromagnetic environments.

Anti-static: Applied as an anti-static coating in scenarios requiring static protection, such as for electronic product protection and PCB anti-static applications.